公开(公告)号：US08698585B2

公开(公告)日：2014-04-15

申请号：US13395233

申请日：2010-09-06

申请人： Takashi Takiguchi ,  Yuko Kanazawa ,  Mikio Kitaoka ,  Satoshi Ota

发明人： Takashi Takiguchi ,  Yuko Kanazawa ,  Mikio Kitaoka ,  Satoshi Ota

IPC分类号： H01F27/08

CPC分类号： H01F27/22 ,  H01F27/255

摘要： A high power inductance device enables a large ferrite magnetic core to be manufactured at low cost and with ease and improves heat radiation efficiency to reduce an increase in the temperature of the core. The inductance device has a ferrite magnetic core and a winding wire wound around the ferrite magnetic core and is mounted on a heat radiation structure through at least one of the front surfaces of the ferrite magnetic core. The ferrite magnetic core is made of a core aggregate obtained by arranging side by side a plurality of ferrite cores 10 having a completely-closed magnetic path structure or a quasi-closed magnetic path structure with a magnetic gap such that an interval is placed between the ferrite cores and magnetic paths are parallel to each other. The inductance device is mounted such that at least one plane surface of the peripheral surfaces of each of the ferrite cores is brought into direct or indirect contact with the heat radiation structure 18 with a metal plate 12 inserted into the interval between the ferrite cores and the common winding wire 14 wound around all the ferrite cores.

摘要翻译： 高功率电感器件能够以低成本且容易地制造大型铁氧体磁芯，并且提高散热效率以减小芯的温度升高。 电感器件具有铁氧体磁芯和缠绕在铁氧体磁芯上的绕组，并且通过铁氧体磁芯的至少一个前表面安装在散热结构上。 铁氧体磁芯由芯集合体制成，所述芯集合体通过并排布置具有完全闭合的磁路结构的多个铁氧体磁芯10或具有磁隙的准闭合磁路结构，使得在 铁氧体磁芯和磁路彼此平行。 电感装置被安装成使得每个铁氧体磁芯的外周表面的至少一个平面表面与插入铁氧体磁芯和铁氧体磁芯之间的间隔中的金属板12直接或间接地与散热结构18接触 共同的绕组线14缠绕在所有的铁氧体磁芯上。

公开(公告)号：US20120169443A1

公开(公告)日：2012-07-05

申请号：US13395233

申请日：2010-09-06

申请人： Takashi Takiguchi ,  Yuko Kanazawa ,  Mikio Kitaoka ,  Satoshi Ota

发明人： Takashi Takiguchi ,  Yuko Kanazawa ,  Mikio Kitaoka ,  Satoshi Ota

IPC分类号： H01F27/22

CPC分类号： H01F27/22 ,  H01F27/255

摘要： A high power inductance device enables a large ferrite magnetic core to be manufactured at low cost and with ease and improves heat radiation efficiency to reduce an increase in the temperature of the core. The inductance device has a ferrite magnetic core and a winding wire wound around the ferrite magnetic core and is mounted on a heat radiation structure through at least one of the front surfaces of the ferrite magnetic core. The ferrite magnetic core is made of a core aggregate obtained by arranging side by side a plurality of ferrite cores 10 having a completely-closed magnetic path structure or a quasi-closed magnetic path structure with a magnetic gap such that an interval is placed between the ferrite cores and magnetic paths are parallel to each other. The inductance device is mounted such that at least one plane surface of the peripheral surfaces of each of the ferrite cores is brought into direct or indirect contact with the heat radiation structure 18 with a metal plate 12 inserted into the interval between the ferrite cores and the common winding wire 14 wound around all the ferrite cores.

摘要翻译： 高功率电感器件能够以低成本且容易地制造大型铁氧体磁芯，并且提高散热效率以减小芯的温度升高。 电感器件具有铁氧体磁芯和缠绕在铁氧体磁芯上的绕组，并且通过铁氧体磁芯的至少一个前表面安装在散热结构上。 铁氧体磁芯由芯集合体制成，所述芯集合体通过并排布置具有完全闭合的磁路结构的多个铁氧体磁芯10或具有磁隙的准闭合磁路结构，使得在 铁氧体磁芯和磁路彼此平行。 电感装置被安装成使得每个铁氧体磁芯的外周表面的至少一个平面表面与插入铁氧体磁芯和铁氧体磁芯之间的间隔中的金属板12直接或间接地与散热结构18接触 共同的绕组线14缠绕在所有的铁氧体磁芯上。

公开(公告)号：US09700394B2

公开(公告)日：2017-07-11

申请号：US14404459

申请日：2013-04-26

申请人： Matsuo Yamamoto ,  Takashi Takiguchi ,  Masanori Sato ,  Katsuyuki Inagaki ,  Kazumasa Kubota ,  Hideo Kozaka ,  Toshiaki Miyamoto

发明人： Matsuo Yamamoto ,  Takashi Takiguchi ,  Masanori Sato ,  Katsuyuki Inagaki ,  Kazumasa Kubota ,  Hideo Kozaka ,  Toshiaki Miyamoto

IPC分类号： A61C1/07 ,  A61C17/20 ,  A61C17/02

CPC分类号： A61C17/20 ,  A61C17/0202 ,  A61C17/0208

摘要： Provided is a dental ultrasonic cleaning device that efficiently cleans teeth or dentures in an oral cavity using ultrasonic waves. A dental ultrasonic cleaning device 1 emits ultrasonic waves through a cleaning-liquid (W1) to the surface of a cleaning-target 26, ultrasonically cleaning it. An ultrasonic horn 24 propagates ultrasonic waves being generated by an ultrasonic-wave transducer 23 and emits them from the vibratory surface 25 provided at the tip-end of the horn 24. A liquid-reserving part 27 is provided, surrounding the vibratory surface 25 of the ultrasonic horn 24, which temporarily reserves the cleaning-liquid (W1) between the vibratory surface 25 and the cleaning-target 26. A cap-member 33 is provided at a certain interval opposite the liquid-reserving part 27. A cleaning-liquid discharge-tube inlet 35 is connected to a vacuum tube 36 within the cap-member 33, allowing the cleaning-liquid W1 used during the ultrasonic cleaning to be vacuumed from the oral cavity, into the cap-member 33, and then discharged through the vacuum tube 36.

公开(公告)号：US20140147804A1

公开(公告)日：2014-05-29

申请号：US14233209

申请日：2012-07-11

申请人： Matsuo Yamamoto ,  Takashi Takiguchi ,  Masanori Sato ,  Kengo Uemura ,  Tomomi Hikida ,  Katsuyuki Inagaki ,  Hideo Kozaka ,  Toshiaki Miyamoto

发明人： Matsuo Yamamoto ,  Takashi Takiguchi ,  Masanori Sato ,  Kengo Uemura ,  Tomomi Hikida ,  Katsuyuki Inagaki ,  Hideo Kozaka ,  Toshiaki Miyamoto

IPC分类号： A61C17/20 ,  A61C1/00 ,  A61C1/08 ,  A61C17/02

CPC分类号： A61C17/20 ,  A61C1/0061 ,  A61C1/07 ,  A61C1/088 ,  A61C17/0202 ,  A61C17/0208

摘要： This invention is achieved to provide a water-flow ultrasonic oral-cavity cleaning device and a method for water-flow ultrasonic oral-cavity cleaning for surely and efficiently cleaning an oral cavity. In the water-flow ultrasonic oral-cavity cleaning device 1, cleaning liquid W1 from a cleaning-liquid supplying device 2 is supplied into a transducer case 21 through a supply port 26. Ultrasonic waves S1 are propagated into the cleaning liquid W1 from an ultrasonic transducer 22 mounted in a transducer mounting part 23 inside the transducer case 21. The water-flow of the cleaning liquid W1 is collected at the apical-part inside the transducer case 21, and then emitted from the issue 27 into the oral cavity, wherein power supply of 100W or less is supplied to the ultrasonic transducer 22 of 50 mm or less in diameter to propagate the ultrasonic waves S1 of 100 kHz or more to 3 MHz or less in frequency into the cleaning liquid W1.

摘要翻译： 本发明的目的是提供一种水流超声口腔清洁装置和用于确保和有效地清洁口腔的水流超声口腔清洁方法。 在水流超声波口腔清洁装置1中，来自清洗液供给装置2的清洗液W1通过供给口26供给到换能器壳体21中。超声波S1从超声波传播到清洗液W1中 换能器22安装在换能器壳体21内的换能器安装部23中。清洁液W1的水流被收集在换能器壳体21内的顶部，然后从问题27发射到口腔中，其中 将100W以下的电源供给到直径为50mm以下的超声波振子22，将超过100kHz以上的超声波S1频率传播至3MHz以下的频率进入清洗液W1。

公开(公告)号：US20140045140A1

公开(公告)日：2014-02-13

申请号：US14113320

申请日：2012-04-18

申请人： Hitoshi Soyama ,  Matsuo Yamamoto ,  Takashi Takiguchi

发明人： Hitoshi Soyama ,  Matsuo Yamamoto ,  Takashi Takiguchi

IPC分类号： A61C17/02

CPC分类号： A61C17/0211 ,  A61C17/02 ,  A61C17/0208 ,  F04C2270/041

摘要： A device for cleaning oral cavity and a method for cleaning oral cavity capable of cleaning stains such as plaque, tartar, and the like even in a narrow portion such as a clearance between teeth, a clearance between implants, and the like. A cover includes a jetting orifice and a discharge orifice and covers a tooth by leaving a clearance between the tooth and the cover so that the clearance can hold water. A jetting unit is mounted in the jetting orifice and includes a flow path communicating with the clearance between the tooth and the cover. The jetting unit is configured to generate cavitation bubbles. The flow path includes a small diameter part and an enlarged part. A discharge unit discharges water in the clearance between the tooth and the cover from the discharge orifice.

摘要翻译： 用于清洁口腔的装置和即使在诸如牙齿之间的间隙，植入物之间的间隙等的狭窄部分中能够清洁诸如斑块，牙垢等的污渍的口腔的方法。 盖子包括喷射孔和排出孔，并且通过在齿和盖之间留下间隙来覆盖齿，使得间隙能够容纳水。 喷射单元安装在喷射孔中，并且包括与齿和盖之间的间隙连通的流路。 喷射单元构造成产生空化气泡。 流路包括小直径部分和放大部分。 排放单元从排出口排出牙齿和盖子之间的间隙中的水。

公开(公告)号：US09579174B2

公开(公告)日：2017-02-28

申请号：US14233209

申请日：2012-07-11

申请人： Matsuo Yamamoto ,  Takashi Takiguchi ,  Masanori Sato ,  Kengo Uemura ,  Tomomi Hikida ,  Katsuyuki Inagaki ,  Hideo Kozaka ,  Toshiaki Miyamoto

发明人： Matsuo Yamamoto ,  Takashi Takiguchi ,  Masanori Sato ,  Kengo Uemura ,  Tomomi Hikida ,  Katsuyuki Inagaki ,  Hideo Kozaka ,  Toshiaki Miyamoto

IPC分类号： A61C17/02 ,  A61C17/20 ,  A61C1/00 ,  A61C1/08 ,  A61C1/07

CPC分类号： A61C17/20 ,  A61C1/0061 ,  A61C1/07 ,  A61C1/088 ,  A61C17/0202 ,  A61C17/0208

摘要： This invention is achieved to provide a water-flow ultrasonic oral-cavity cleaning device. In the water-flow ultrasonic oral-cavity cleaning device (1), cleaning liquid (W1) from a cleaning-liquid supplying device (2) is supplied into a transducer case (21) through a supply port (26). Ultrasonic waves (S1) are propagated into the cleaning liquid W1 from an ultrasonic transducer (22) mounted in a transducer mounting part (23) inside the transducer case (21). The water-flow of the cleaning liquid (W1) is collected at the apical-part inside the transducer case (21), and then emitted from the issue (27) into the oral cavity, wherein power supply of 100W or less is supplied to the ultrasonic transducer (22) of 50 mm or less in diameter to propagate the ultrasonic waves (S1) of 100 kHz or more to 3 MHz or less in frequency into the cleaning liquid (W1).

摘要翻译： 实现本发明以提供一种水流超声口腔清洁装置。 在水流超声波口腔清洗装置（1）中，来自清洗液供给装置（2）的清洗液（W1）通过供给口（26）供给到换能器壳体（21）。 超声波（S1）从安装在换能器壳体（21）内的换能器安装部（23）的超声波换能器（22）传播到清洗液W1中。 清洗液（W1）的水流被收集在换能器壳体（21）内的顶部，然后从问题（27）发射到口腔中，其中供给100W以下的电力供给 所述超声波换能器（22）的直径为50mm以下，以将频率为100kHz以上的超声波（S1）频率传播至3MHz以下的频率进入清洗液（W1）。

公开(公告)号：US3954215A

公开(公告)日：1976-05-04

申请号：US452818

申请日：1974-03-20

申请人： Nobuo Takagi ,  Takeshi Kubo ,  Takashi Takiguchi

发明人： Nobuo Takagi ,  Takeshi Kubo ,  Takashi Takiguchi

IPC分类号： B23K20/12 ,  B23K27/00

CPC分类号： B23K20/121

摘要： This disclosure relates to an apparatus for friction welding wherein an improved friction welding of a first and a second workpieces are carried out in a manner such that welded and plasticized workpieces are rapidly synchronized and also a larger thrust is provided at only the end stage of the welding so that change of metallic structure of welded workpieces due to cooling which tends to cause cracks in the welded portion is prevented.In order to carry out this improved friction welding, the apparatus for friction welding includes a second driving means for driving the second workpiece, detecting means for detecting the sum of the lengths of welded workpieces capable of providing a signal for interrupting the drive of the first workpiece and hydraulic systems capable of adjusting the thrust according to a signal from the detecting means.

摘要翻译： 本公开涉及一种用于摩擦焊接的装置，其中第一和第二工件的改进的摩擦焊接以这样的方式进行，使得焊接和塑化的工件快速同步，并且仅在最终阶段提供较大的推力 焊接，防止焊接工件的金属结构由于冷却而导致焊接部分产生裂缝的变化。